/** @file * * VirtualBox Windows NT/2000/XP guest video driver * * VRDP text cache/orders. */ /* * Copyright (C) 2006-2007 innotek GmbH * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License as published by the Free Software Foundation, * in version 2 as it comes in the "COPYING" file of the VirtualBox OSE * distribution. VirtualBox OSE is distributed in the hope that it will * be useful, but WITHOUT ANY WARRANTY of any kind. */ #include "driver.h" #include #include /* * The client's glyph cache theoretically consists of 10 caches: * cache index: 0 1 2 3 4 5 6 7 8 9 * glyph size (max): 0x4 0x4 0x8 0x8 0x10 0x20 0x40 0x80 0x100 0x800 * glyphs: 0xfe 0xfe 0xfe 0xfe 0xfe 0xfe 0xfe 0xfe 0xfe 0x40 * * Glyph size is the size of the 1 BPP glyph bitmap bytes rounded up to 32 bit dword: * glyph size = (((w + 7) / 8) * h + 3) & ~3 * * Following simplifications are used: * * Cache index 9 is not used, such huge glyphs (~40x40 pixel) are unlikely, * (especially for raster fonts) so without it all caches contain up to 0xfe * characters. * * Maximum string length is 0xfe, so a string can always * be placed in the cache, even if the string consists of * all different characters. * * The driver always sends glyphs to the host. * The host maintains the glyph cache. Performance issues: * - increased the CPU load to copy glyph info. * + eliminates the driver side of the cache. * + lets the host to optimize memory usage. * * Therefore, on a textout the driver must send to the host * The string attributes: * - number of glyphs; * - flags: HORIZONTAL, VERTICAL, CHAR_INC_EQUAL_BM_BASE, ... (1); * - glyph increment for monospaced font (== 0 for not monospaced font) or a flag fMonospaced; * - the bounding box of the string background (prclOpaque or the pstro->rclBkGround); * - the foreground and background colors; * - the mix (two ROP2); * - ... (1). * The glyph information for each glyph in the string: * - unique glyph handle 64 bit for use of crc64; * - the glyph bitmap coordinates on the screen; * - width, height of the glyph; * - the glyph origin in the bitmap (2); * - the 1BPP glyph bitmap; * - whether it is a 'space' character (3); * - ... (1). * * Remarks: * (1) to be defined; * (2) might be not necessary; * (3) it seems to be not necessary to know the codepoint value, * strings are considered to be a set of bitmaps from * the cache space. But reporting that the glyph actually * represents a 'space' character might allow some optimizations. * * The VRDPORDERTEXT consists of the string info and glyph infos. * */ static BOOL vboxReportGlyph (GLYPHPOS *pGlyphPos, uint8_t **ppu8Ptr, uint8_t *pu8End) { uint32_t cbOrder; uint32_t cbBitmap; VRDPORDERGLYPH *pOrder = (VRDPORDERGLYPH *)*ppu8Ptr; GLYPHBITS *pgb = pGlyphPos->pgdf->pgb; /* BYTE-aligned 1BPP bitmap of the glyph. The array includes padding at the end to DWORD-align. */ cbBitmap = (pgb->sizlBitmap.cx + 7) / 8; /* Line size in bytes. */ cbBitmap *= pgb->sizlBitmap.cy; /* Size of bitmap. */ cbBitmap = (cbBitmap + 3) & ~3; /* DWORD align. */ cbOrder = (uint8_t *)&pOrder->au8Bitmap - (uint8_t *)pOrder; cbOrder += cbBitmap; if (*ppu8Ptr + cbOrder > pu8End) { return FALSE; } pOrder->o32NextGlyph = cbOrder; pOrder->u64Handle = RTCrc64Start (); pOrder->u64Handle = RTCrc64Process(pOrder->u64Handle, pgb->aj, cbBitmap); pOrder->u64Handle = RTCrc64Process(pOrder->u64Handle, &pgb->ptlOrigin, sizeof (pgb->ptlOrigin)); pOrder->u64Handle = RTCrc64Finish(pOrder->u64Handle); pOrder->x = (int16_t)pGlyphPos->ptl.x; pOrder->y = (int16_t)pGlyphPos->ptl.y; pOrder->w = (uint16_t)pgb->sizlBitmap.cx; pOrder->h = (uint16_t)pgb->sizlBitmap.cy; pOrder->xOrigin = (int16_t)pgb->ptlOrigin.x; pOrder->yOrigin = (int16_t)pgb->ptlOrigin.y; /* 1BPP bitmap. Rows are byte aligned. Size is (((w + 7)/8) * h + 3) & ~3. */ memcpy (pOrder->au8Bitmap, pgb->aj, cbBitmap); *ppu8Ptr += cbOrder; return TRUE; } static uint32_t vboxSizeofTextOrder (ULONG cGlyphs, ULONG cbMaxGlyph) { uint32_t cb = sizeof (VRDPORDERTEXT); cb += cGlyphs * (sizeof (VRDPORDERGLYPH) + cbMaxGlyph); return cb; } BOOL vboxReportText (PPDEV ppdev, VRDPCLIPRECTS *pClipRects, STROBJ *pstro, FONTOBJ *pfo, RECTL *prclOpaque, ULONG ulForeRGB, ULONG ulBackRGB ) { FONTINFO fi; uint32_t cbOrderMax; VRDPORDERTEXT *pOrder; BOOL fResult; uint8_t *pu8GlyphPtr; uint8_t *pu8GlyphEnd; DISPDBG((1, "VRDP::vrdpReportText: ppdev %p, pClipRects %p, pstro %p, pfo %p, prclOpaque %p, ulForeRGB %x, ulBackRGB %x\n", ppdev, pClipRects, pstro, pfo, prclOpaque, ulForeRGB, ulBackRGB)); if (pstro->ulCharInc > 0xFF) { return FALSE; } if ( (pstro->flAccel & SO_VERTICAL) != 0 || (pstro->flAccel & SO_REVERSED) != 0) { /* Do not support (yet) the vertical and right to left strings. * @todo implement and test. */ return FALSE; } memset (&fi, 0, sizeof (fi)); FONTOBJ_vGetInfo (pfo, sizeof (fi), &fi); if ( fi.cjMaxGlyph1 == 0 || fi.cjMaxGlyph1 > VRDP_TEXT_MAX_GLYPH_SIZE) { /* No 1BPP bitmaps or the bitmap is larger than the cache supports. */ DISPDBG((1, "VRDP::vrdpReportText: fi.cjMaxGlyph1 = %x. Return FALSE\n", fi.cjMaxGlyph1)); return FALSE; } cbOrderMax = vboxSizeofTextOrder (pstro->cGlyphs, fi.cjMaxGlyph1); DISPDBG((1, "VRDP::vrdpReportText: pstro->cGlyphs = %d, fi.cjMaxGlyph1 = 0x%x, cbOrderMax = 0x%x.\n", pstro->cGlyphs, fi.cjMaxGlyph1, cbOrderMax)); pOrder = (VRDPORDERTEXT *)EngAllocMem (0, cbOrderMax, ALLOC_TAG); if (!pOrder) { DISPDBG((1, "VRDP::vrdpReportText: pOrder = %x. Return FALSE\n", pOrder)); return FALSE; } pu8GlyphPtr = (uint8_t *)&pOrder[1]; /* Follows the order header. */ pu8GlyphEnd = (uint8_t *)pOrder + cbOrderMax; pOrder->xBkGround = (int16_t)pstro->rclBkGround.left; pOrder->yBkGround = (int16_t)pstro->rclBkGround.top; pOrder->wBkGround = (uint16_t)(pstro->rclBkGround.right - pstro->rclBkGround.left); pOrder->hBkGround = (uint16_t)(pstro->rclBkGround.bottom - pstro->rclBkGround.top); if (prclOpaque) { pOrder->xOpaque = (int16_t)prclOpaque->left; pOrder->yOpaque = (int16_t)prclOpaque->top; pOrder->wOpaque = (uint16_t)(prclOpaque->right - prclOpaque->left); pOrder->hOpaque = (uint16_t)(prclOpaque->bottom - prclOpaque->top); } else { pOrder->xOpaque = 0; pOrder->yOpaque = 0; pOrder->wOpaque = 0; pOrder->hOpaque = 0; } pOrder->u16MaxGlyph = (uint16_t)fi.cjMaxGlyph1; pOrder->u8Glyphs = (uint8_t)pstro->cGlyphs; pOrder->u8Flags = (uint8_t)pstro->flAccel; pOrder->u8CharInc = (uint8_t)pstro->ulCharInc; pOrder->u32FgRGB = ulForeRGB; pOrder->u32BgRGB = ulBackRGB; DISPDBG((1, "VRDP::vrdpReportText: pstro->pgp %p.\n", pstro->pgp)); /* Enumerate glyphs. */ STROBJ_vEnumStart (pstro); fResult = TRUE; for (;;) { ULONG i; ULONG cGlyphs = 0; GLYPHPOS *pGlyphPos = NULL; BOOL fMore = STROBJ_bEnum (pstro, &cGlyphs, &pGlyphPos); DISPDBG((1, "VRDP::vrdpReportText: cGlyphs %d.\n", cGlyphs)); for (i = 0; i < cGlyphs; i++) { fResult = vboxReportGlyph (&pGlyphPos[i], &pu8GlyphPtr, pu8GlyphEnd); if (!fResult) { break; } } if (!fMore || !fResult) { break; } } DISPDBG((1, "VRDP::vrdpReportText: fResult %d.\n", fResult)); if (fResult) { pOrder->cbOrder = pu8GlyphPtr - (uint8_t *)pOrder; vrdpReportOrderGeneric (ppdev, pClipRects, pOrder, pOrder->cbOrder, VRDP_ORDER_TEXT); } EngFreeMem (pOrder); return fResult; }